Ultra-low shrinkage polyester industrial yarn and its preparation method

ABSTRACT

The present invention discloses an ultra-low shrinkage polyester industrial yarn and its preparation method. The ultra-low shrinkage polyester industrial yarn is prepared by subjecting a polyester to dissolution, washing and solid state polycondensation followed by spinning. The ultra-low shrinkage polyester industrial yarn has a dry heat shrinkage rate of 1.8±0.25% under test conditions of 177° C.×10 min×0.05 cN/dtex. The polycondensation catalyst consists of magnesium ethylene glycol and antimony ethylene glycol, has a small thermal degradation coefficient. The present invention reduces oligomers during polymerization, reduces thermal degradation during processing, and as a result the invention greatly reduces impurities and nucleating agent in the polyester, leading to an increase in the probability of homogeneous nucleation based on the reduction of heterogeneous nucleation. The dissolution and washing of polyester further decreases oligomer content, facilitating the growth of the grain size and the optimization of crystal perfection in the ultra-low shrinkage polyester industrial yarn.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is the national phase of International Application No. PCT/CN2016/103176, filed on Oct. 25, 2016, which is based upon and claims priority to Chinese Patent Application No. 201511019261.9, filed on Dec. 29, 2015, the entire contents of which are incorporated herein by reference.

TECHNICAL FIELD

The present invention relates to an ultra-low shrinkage polyester industrial yarn and its preparation method. To be specific, the polyester and its ultra-low shrinkage industrial yarn using the mixture of magnesium ethylene glycol and antimony ethylene glycol as the condensation catalyst, and scorning and washing the polyester sections with water and rinsing agent at 120-130° C., and 0.2-0.3 MPa.

BACKGROUND

Polyethylene terephthalate (PET) is a kind of polymer with excellent performance. PET is preferred because of its high modulus, high strength, crispness, good shape retention, safe and clean, and good barrier property. It is widely used in fiber industry, bottle packaging, film production and sheets materials, etc. The output production of PET is increasing year by year and its status in the industry has been significantly improved.

Industrial polyester fiber mainly refers to those used in industry, national defense, medical care, environmental protection and cutting-edge science. It is a kind of chemical fiber which has relatively special physical and chemical structure, properties and uses, or with special functions. The characteristics can be found in its resistance against strong corrosion, wearing, high temperature, radiation, fire, burning, high voltage current. It also has high strength and high modulus, and a variety of medical usage. The tent cloth using the high strength and low shrinkage polyester industrial filament has high peel strength and tear strength, which make the tent cloth suitable for various purposes, including flexible advertising light box materials, inflatable structural materials, tent-like buildings' fabric sunshade tent and so on. The high strength and, low shrinkage industrial yarn-based fabric materials are also applied in special protective clothing, camouflage, covering, backpack and other military supplements. As a kind of geotextile material with the advantages of light, soft, high strength, wear-resistant, corrosion-resistant, non-conductive, shock absorption and so on, it is also reliable and convenient to use. It can make our work more efficient, and will not damage the lifting objects. The expansion of industrial polyester fiber's applications has led the whole fiber industry to a more competitive edge in application areas. Polyester high-performance fibers are playing an increasingly important role in many aspects including reducing the weight of composite materials, durability in use and reducing maintenance costs and so on. In the next few decades, the development of high-performance polyester fiber is not only the progress of its amount, but also the development in the field of application and enhancement of the overall competitiveness of the industry chain to achieve substantial results.

High strength, high modulus, low shrinkage, dimensional stability, functionalization will be the main direction of the development of industrial polyester fiber. The fiber quality is related to the collection of polyester polymer structure, mainly related to the intermolecular force, crystal morphology and structure, orientation state structure, etc., and the shape and structure of the crystal is one of the key points. Polyester industrial yarn is widely used in different fields. For ultra-low shrinkage polyester industrial yarn, it has the characteristics of lower dry heat shrinkage and better dimensional stability. As a result, it is widely used in filter cloth, coated fabric, soft tube and belt latitude and so on.

Carboxyl end group, oligomer, and diethylene glycol (DEG) content are important quality indicators of polyester sections, in which oligomer and diethylene glycol are low molecular polymer. These reflect not only the quality of production status, but also affect the product quality after the spinning process. Therefore, reducing the carboxyl end groups, oligomers, diethylene glycol content in polyester sections play an important role in improving the quality of polyester products. The influence of carboxyl end groups on the performance of polymers cannot be ignored. Only by controlling the amount of polyester end carboxyl groups in the production, can we stabilize the uniformity of molecular weight distribution. The amount of diethylene glycol in the polyester sections is a very important quality index in polyester production. Because it has a direct impact on the melting point of polyester sections, the melting point of polyester sections will decline sharply with the increase of DEG content, so it not only reflects the quality of production, but also directly affects the post-processing and spinning process and silk quality. Oligomer in polyester is low molecular polymer with a degree of polymerization of less than 10 and can be classified into linear oligomers and cyclic oligomers, of which the majority are cyclic polymers, especially cyclic trimers. The oligomer is mainly influencing heterogeneous nucleation, spinning processing, the performance of polyester and after processing caused some adverse effects. Controlling the content of the three in polyester sections is a very important issue in the polyester production process.

SUMMARY

The present invention is to provide an ultra-low shrinkage polyester industrial yarn and its preparation method. To be specific, the present invention discloses the preparation method of an ultra-low shrinkage polyester industrial yarn and the polyester prepared by using a mixture of magnesium ethylene glycol and antimony ethylene glycol as polycondensation catalyst. The ultra-low shrinkage polyester industrial yarn in the present invention has a dry heat shrinkage of 1.8±0.25% at 177° C.×10 min×0.05 cN/dtex. In the present invention, a mixture of magnesium ethylene glycol and antimony ethylene glycol is used as a polycondensation catalyst to reduce thermal degradation to minimum, and the polyester sections are scoured and washed at 130° C. and 0.3 MPa with water and a rinsing agent, in order to lower the influence of carboxyl end group, oligomer and diethylene glycol content on polyester spinning process.

Additionally, an ultra-low shrinkage polyester industrial yarn according to the present invention is obtained by the esterification of terephthalic acid and ethylene glycol and the polycondensation catalyzed by a mixture of magnesium ethylene glycol and antimony ethylene glycol, polyester section is obtained by granulating. Then the polyester section is ready for dissolution, washing and solid state tackifying and spinning.

A process for preparing the ultra-low shrinkage industrial yarn, wherein the carboxyl end group is less than 15 mol/t, the mass percentage of oligomer is lower than 0.5%, and weight percentage of diethylene glycol is lower than 0.5%.

A process for preparing the ultra-low shrinkage industrial yarn, wherein the molecular formula of magnesium ethylene glycol is Mg(OCH₂CH₂OH)₂.

A process for preparing the ultra-low shrinkage industrial yarn, wherein the dissolution and washing refers to that the granulated slices are scoured and washed with water and a rinsing agent at 120-130° C. and 0.2-0.3 MPa.

High strength, high modulus, low shrinkage, dimensional stability, functionalization will be the main direction of the development of industrial polyester fiber, and what affects the fiber quality is the aggregate structure of polyester polymer, which is mainly related to the intermolecular force, crystal morphology and structure, orientation state structure, etc. Among them, the shape and structure of the crystal is one of the key points.

Low shrinkage and dimensional stability are the main factors that make high quality polyester. The macroscopic heat shrinkage of polyester fibers is due to the entropy change tendency of the macromolecular chains of local elongation, including the internal stress caused by the development of the crimp state and the axial internal stress frozen in the spinning process in the sample, this local internal stress can be transmitted from the molecular network structure to the entire material, which will occur when the outside world to provide enough heat.

Polyester fibers are oriented semi-crystalline polymer materials, which are composed of structural units with different orientation stability: (1) high-stability and high-perfection crystalline parts; (2) relatively low-stability imperfect crystalline parts; (3) low-stability transition layer between crystalline and amorphous; (4) Unstable oriented amorphous phase. When the polyester fiber is heated, things may happen as followed, the oriented amorphous phase is retarded and crystallized; failure of the imperfect crystalline portion and recrystallization may occur: thickening of the crystal grains or complete melting of the crystal grains. It shows that the grain size and the degree of crystal refinement are the important factors to affect the dimensional stability of the fiber at high temperature. The low thermal shrinkage at 177° C. is an excellent thermal dimensional stability fiber with two structural features: large grain size and good crystallinity. Therefore, the fiber grain size and crystallization of good integrity, is the guarantee of low shrinkage fiber's quality.

The main factors affecting the crystallization of polyester are: 1. the structure of the molecular chain itself. 2. the choice of crystallization temperature. 3, the impact of molecular weight. 4. the application of nucleating agent. 5. Finally, the impact of preparation method. Nucleation is a very important part of crystallization, and the nucleating agent to some extent can speed up the crystallization process, while the more important thing to polyester industrial yarn is the impact of the size and perfection of the crystallization.

If the content of carboxyl end group is high in polyester, the thermal stability of polyester resin is poor, while the carboxylate salt of big polyester molecular chain is formed by the reaction of the carboxylate and polyester, which constitutes a nucleus that can accelerate heterogeneous nucleation of the polyester. Polyester contains 3-4% of oligomers, mostly in the form of low molecular ether and ester, mainly cyclic oligomer, and diethylene glycol. The influence of oligomers on the quality of the polyester cannot be ignored. They can affect the crystallization nucleation mechanism, crystallinity, crystal morphology and crystallization integrity of the polyester mainly in the form of nucleating agent, thereby affecting the quality of the polyester fiber, especially the thermal shrinkage of the polyester industrial yarn. Pure polyester without &ethylene glycol will not exhibit abnormal spherulitic morphology regardless of the crystallization conditions; however, when the sample contains diethylene glycol, normal and abnormal spherulites will coexist in the crystalline zone, and as the content of diethylene glycol increases, the proportion of abnormal spherulites increases in the entire morphology, thereby affecting the integrity of the crystals and reducing the crystallinity of the polyester. Cyclic trimer in the polyester to nucleate more ways, more nucleating agent, crystallization speed, the number of large grains, but the smaller grain size, and thus affect the integrity of the crystallization. Heterogeneous nucleation increased, making high degree of stability and high degree of completion of the part of the crystal to reduce, and the enlargement of transition layer between imperfect crystalline portion with relatively low stability and low-stability crystalline and amorphous increases the polyester fiber Shrinkage has an adverse effect on the thermal shrinkage of the polyester fiber.

The ultra-low shrinkage polyester industrial yarn according to the present invention, characterized in that the density deviation of said ultra-low shrinkage industrial yarn≤1.5%, breaking strength≥7.0 cN/dtex, CV value of breaking strength≤2.5%, breaking extension 20.0±1.5% CV value of breaking extension≤7.0%.

In the process for preparing the ultra-low shrinkage polyester industrial yarn, the mixture of magnesium ethylene glycol and antimony ethylene glycol, the mass ratio of the two is 2:1 to 3:1.

A process for preparing the ultra-low shrinkage polyester industrial yarn according to the present invention, characterized in that the polyester is obtained by the esterification of terephthalic acid and ethylene glycol and the polycondensation catalyzed by a mixture of magnesium ethylene glycol and antimony ethylene glycol, polyester section is obtained by granulating. Then the polyester section is ready for dissolution, washing and solid state polycondensation. Finally, after measuring, extrusion, cooling, oiling, stretching, heat setting and winding, the ultra-low shrinkage polyester industrial yarn is prepared.

A process for preparing the yarn according to the present invention, characterized in that the preparation method of the ultra-low shrinkage polyester industrial yarn includes:

a. The Preparation of Catalyst (Magnesium Ethylene Glycol)

Ethylene glycol is added in the single-compartment electrolytic cell, magnesium chloride is the supporting electrolyte, the anode is comprised of magnesium, the cathode is graphite. At 50 to 60° C., the apparatus is operated about 10 to 12 h under DC, for the initial voltage 6 to 10V, cathodic current density 150 to 200 mA. After the electrolysis, the white suspension liquid is obtained followed by removing the electrodes, decompression filtration and washing by anhydrous alcohol, then we obtain the magnesium ethylene glycol after drying.

b. The Preparation of Polyester, Including the Esterification and Polycondensation

The esterification reaction uses terephthalic acid and ethylene glycol as raw materials, adding polyether-inhibitor in to obtain esterification products after reaction. The esterification reaction needs the increase of pressure in the nitrogen atmosphere, and the pressure is controlled in the scale of atmospheric pressure to 0.3 MPa, the temperature is controlled between 250 to 260° C. The end of the reaction is set after the amount of distillate water in the esterification reaction reaches 90% of the theoretical value at least. The condensation reaction, includes the low vacuum stage and the high vacuum stage of the condensation reaction:

In the low vacuum stage of such condensation reaction, the catalyst and stabilizer need to be added into the esterification production. The condensation reaction will start under the condition of negative pressure. In such period, the pressure needs to be pumped smoothly from atmospheric pressure to the pressure lower than the absolute pressure 500 Pa, and the temperature needs to be controlled between 260 to 270° C., The reaction time should be 30 to 50 mins. The catalyst the reaction used is the mixture of magnesium ethylene glycol and antimony ethylene glycol.

The high vacuum stage of the condensation reaction requires continuously pumping vacuum after the low vacuum period in order to ensure that the reaction pressure is decreased to absolute pressure lower than 100 Pa. The reaction temperature needs to be controlled between 275 to 280° C., and the reaction time needs to be 50-90 mins.

Then the polyester is prepared and the polyester section can be made through granulation.

c. Dissolution and Washing

The polyester section is scoured and washed with water and rinsing agent at 120 to 130° C. and 0.2 to 0.3 MPa for 3 to 5 h followed by washing with water.

d. Solid State Polycondensation

The intrinsic viscosity of the polyester section is raised to 1.0 to 1.2 dL/g through the solid state polycondensation, it can be regarded as high-viscosity chips.

e. Main Process Parameters of Spinning

The temperature of extrusion is 290 to 120° C.;

The air temperature of cooling is 20 to 30° C.;

The process of stretching and heat setting,

GR-1 at speed of 450 to 600 m/min, temp: room temperature;

GR-2 at speed of 480 to 1000 m/min, temp: 80 to 100° C.;

GR-3 at speed of 1800 to 2500 m/min, temp: 100 to 150° C.;

GR-4 at speed of 2800 to 3500 m/min, temp: 200 to 250° C.;

GR-5 at speed of 2800 to 3500 m/min, temp: 200 to 250° C.;

GR-6 at speed of 2600 to 3400 m/min, temp: 150 to 220° C.;

The winding speed is 2600 to 3400 m/min.

A process for preparing the yarn according to the present invention, characterized in that the molar ratio of the ethylene glycol to terephthalic acid is 1.2:1 to 2.0:1.

A process for preparing the yarn according to the present invention, characterized in that the mass ratio of magnesium ethylene glycol to antimony ethylene glycol in their mixture is 2 to 3:1. The mass of the catalyst is 0.01-0.05% of the terephthalic acid. The stabilizer is chosen from triphenyl phosphate, trimethyl phosphate and trimethyl phosphite. The mass of stabilizer is 0.01-0.05% of the terephthalic acid.

A process for preparing the yarn according to the present invention, characterized in that the mass ratio of water to the rinsing agent is 100:4 to 100:3, and the ratio of polyester section to water and rinsing agent is 1:5˜10, the rinsing agent is selected from one of 2-ethoxyethanol, 2-propoxyethanol and ethylene glycol monobutyl ether.

A process for preparing the yarn according to the present invention, characterized in that the cleaning means washing the polyester sections with 70-80° C. water for 10-15 min after scouring the polyester sections, then washing them with cold water, and dry and cool down to make the sections prepared.

A process for preparing the yarn according to the present invention, characterized in that the polyether inhibitor is chosen from the sodium acetate and calcium acetate, the mass of plyether-inhibitor is 0.01-0.05% of terephthalic acid.

The use of magnesium glycol and antimony ethylene glycol mixture as a polycondensation catalyst is because that magnesium glycol is relatively mild, the thermal degradation coefficient is small, less side reactions caused during the reaction, which can reduce terminal carboxyl and oligomer in production. The main factors causing thermal degradation are high temperature and the catalyst. High temperature is because the reaction strength is too high, leading to accelerated degradation, which results in carboxyl end groups, but also increases the cyclic oligomer. Catalyst is related to the catalyst degradation reaction constant. In polycondensation process, the role of the catalyst is not only to catalyze the formation of the main reaction, and to affect the rate and yield of the reaction, but also to catalytic thermal degradation and ether bond formation, increase the content of diethylene glycol, thereby increasing the content of carboxyl end groups.

A process for preparing an ultra-low shrinkage polyester industrial yarn, wherein the stabilizer is selected from triphenyl phosphate, trimethyl phosphate and trimethyl phosphite, the amount of stabilizer is the pair 0.01% to 0.05% by weight of phthalic acid. Stabilizers are mainly phosphate ester. The main role is to capture the reaction generated during the polymerization of free radicals, in order to reduce side effects.

A process for preparing ultra-low shrinkage polyester industrial yarn, Wherein the mass ratio of the water and the rinse agent is 100:4 to 100:3, the ratio of polyester sections and water and the rinse agent, that is, the solid-liquid ratio Is 1:10 to 1:5. The rinsing agent is chosen from ethylene glycol monoethyl ether, ethylene glycol monopropyl ether and ethylene glycol monobutyl ether. Add a small amount of rinsing agent to the water, and rinsing agent dissolves in water, and it can also dissolve most of the low molecular ether and ester, which helps to improve the washing effect and oligomer reduction.

A process for preparing an ultra-low shrinkage polyester industrial yarn, wherein the washed polyester sections are washed with hot water at 70-80° C. for 10-15 mins after brewing, washed with cold water, dried and cooled and reserved.

A process for preparing an ultra-low shrinkage polyester industrial yarn, the polyether inhibitor is chosen from sodium acetate and calcium acetate, the amount of the plyether-inhibitor is 0.01%˜0.05 of the weight of the terephthalic acid. The plyether-inhibitor reduces the formation of ether under acidic conditions by adding a small amount of NaAc, thereby reducing the reaction of ethylene glycol to diethylene glycol.

The present invention is intended to provide an ultra-low shrinkage polyester industrial yarn which employs a relatively mild type of polycondensation catalyst, magnesium ethylene glycol. With less side reaction induced during the reaction and less thermal degradation during processing, it reduced the production of oligomers in the process. Polyester sections were brewed at 130° C. and 0.3 MPa with water and solvent, which improved the washing effect and oligomer reduction. The reduction of oligomer in polymerization process, and the reduction of the thermal degradation during processing, greatly reduce the impurities in the polyester, and also reduce the amount of nucleating agent in the polyester, and increase homogeneous nucleation rate on the basis of the reduction of heterogeneous nucleation. It is conducive to ultra-low shrinkage polyester industrial fibers in the grain size growth and crystallization optimization optimization.

Benefits:

-   -   This method uses the mixture of magnesium glycol and antimony         ethylene glycol as a polycondensation catalyst. Magnesium glycol         is relatively mild, the thermal degradation coefficient is         small, and fewer side effects in the reaction process reduce         production of terminal carboxyl and oligomer in process.     -   The content of carboxyl groups in the polyester sections is less         than 15 mol/t, the content of oligomers is less than 0.5% and         the content of diethylene glycol is less than 0.5%, which is         beneficial to further improve the fiber quality.     -   Polyester sections can be washed with water and the detergent at         120˜130° C. and 0.2˜0.3 MPa to improve the washing effect and         reduce the oligomer.     -   Plyether-inhibitor reduces the formation of ether under acidic         conditions by adding a small amount of NaAc, which reduces the         activity of ethylene glycol to diethylene glycol.     -   Oligomer's decreasing during polymerization, and the reduction         of thermal degradation during the process, greatly reduce the         impurities in the polyester, and also reduce the amount of         nucleating agent in polyester, and increase homogeneous         nucleation rate on the basis of reducing the heterogeneous         nucleation in the process, which is conducive to ultra-low         shrinkage polyester industrial fiber grain size growth and         crystallization of the optimization.     -   The ultra-low shrinkage polyester industrial yarn with low dry         heat shrinkage and good dimensional stability and other         characteristics can be widely used in filter cloth, coated         fabrics, hoses and conveyor lines and so on.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Hereinafter, the present invention will be described in more detail by the following examples. It should be noticed that these examples are only for illustrating the present invention and are not intended to limit the scope of the present invention. In addition, it should be noticed that after reading the content of the present invention, those skilled in this field can make various modifications or changes to the present invention, and these equivalent forms also apply to the scope of the appended claims of this application.

The preparation method of the ultra-low shrinkage polyester industrial yarn of the invention comprises the following steps: polycondensing terephthalic acid and ethylene glycol through esterification and obtaining polyester under the catalysis of a mixture of magnesium glycol and antimony ethylene glycol. Polyester sections are obtained by granulation, and then ultra-low shrinkage polyester industrial yarn is prepared through solvent cleaning and solid state polycondensation, then metered, extruded, cooled, oiled, stretched, heat-set and wound.

Example 1

A process for preparing an ultra-low shrinkage polyester industrial yarn, wherein the main process is:

1. Preparation of Catalyst Magnesium Glycol:

Add ethylene glycol into the single-compartment electrolytic cell, magnesium chloride is electrolyte, the anode is magnesium, the cathode is graphite. Under DC, the initial voltage is 6V, the cathode current density is 150 mA, and electrolysis is carried out for 10 hours at 50° C. Remove the electrode after the electrolysis, we can get white suspension. Filter it under reduced pressure, wash the white solid with anhydrous ethanol, and we get magnesium ethylene glycol.

2. Preparation of Polyester, Including Esterification and Polycondensation:

Esterification Reaction:

Using terephthalic acid and ethylene glycol as raw materials, ethylene glycol and terephthalic acid molar ratio of 1.2:1, adding plyether-inhibitor sodium acetate, sodium acetate dosage of terephthalic acid in an amount of 0.01% by weight. Start esterification reaction under nitrogen atmosphere pressure, and control the pressure at atmospheric pressure, the temperature at 250° C. When esterified water distillate amount reaches 91% of the theoretical value of the esterification, reaction ends.

Polycondensation Reaction:

Including polycondensation reaction of low vacuum phase and polycondensation reaction high vacuum phase:

In the polycondensation reaction low-vacuum stage, add catalyst and the stabilizer acid triphenyl ester into the esterification product. The acid triphenyl ester dosage is 0.01% of terephthalic acid by weight, and the amount of catalyst is 0.01% of terephthalic acid by mass. The polycondensation reaction is started under the condition of negative pressure, the pressure is steadily pumped from the atmospheric pressure to the absolute pressure of 498 Pa, the temperature is controlled at 260° C., and the reaction time is 30 minutes. The catalyst is a mixture of magnesium ethylene glycol and antimony ethylene glycol, in which magnesium glycol and antimony ethylene glycol mass ratio is 2:1;

After the polycondensation reaction the low-vacuum stage, the vacuum is continued to reduce the reaction pressure to 98 Pa, the reaction temperature is controlled at 275° C., and the reaction time is 50 minutes. The polyester sections are obtained by granulation.

3. Solvent Cleaning

Polyester sections are washed with water and rinsing agent ethylene glycol monoethyl ether at 120° C. and 0.2 MPa for 3 hours. After washing, the polyester sections are washed with hot water at 70° C. for 10 minutes and then washed with cold water. After drying and cooling, the mass ratio of water to the rinsing agent is 100:3, the ratio of the polyester slice to the water and the rinsing agent, that is, the solid to liquid ratio is 1:5;

4. Solid-Phase Polycondensation:

The obtained polyester sections are solidified by polycondensation to increase the intrinsic viscosity of the polyester sections to 1.0 dL/g, that is, high-viscosity sections.

5. The Main Process Parameters in Spinning:

The temperature of extrusion is 290° C.,

The air temperature of cooling is 20° C.,

The process of stretching and heat setting:

GR-1 speed 450 m/min, temp: room temperature,

GR-2 speed 480 m/min, temp: 80° C.,

GR-3 speed 1800 m/min, temp: 100° C.,

GR-4 speed 2800 m/min, temp: 200° C.,

GR-5 speed 2800 m/min, temp: 200° C.,

GR-6 speed 2600 m/min, temp: 200° C.,

The winding speed is 2600 m/min.

The ultra-low shrinkage polyester industrial yarn obtained wider the conditions of a temperature of 177° C.×10 min×0.05 cN/dtex has the thy heat shrinkage rate of 2.05%. Additionally, the linear density deviation rate is 1.4%, breaking strength is 7.1 cN/dtex, CV value of breaking strength is 2.3%, breaking extension is 21.5% and CV value of breaking extension is 6.8%.

Example 2

An ultra-low shrinkage polyester industrial yarn preparation method, the main process is:

1. Preparation of Catalyst Magnesium Glycol:

Add ethylene glycol into the single-compartment electrolytic cell, magnesium chloride is electrolyte, the anode is magnesium, the cathode is graphite. Under DC, the initial voltage is 10V the cathode current density is 200 mA, and electrolysis is carried out for 12 hours at 60° C. Remove the electrode after the electrolysis, we can get white suspension. Filter it under reduced pressure, wash the white solid with anhydrous ethanol, and we get magnesium ethylene glycol.

2. Preparation of Polyester, Including Esterification and Polycondensation:

Esterification Reaction:

Using terephthalic acid and ethylene glycol as raw materials, ethylene glycol and terephthalic acid molar ratio of 2.0:1, adding plyether-inhibitor calcium acetate, calcium acetate dosage of terephthalic acid in an amount of 0.05% by weight. Start esterification reaction under nitrogen atmosphere pressure, and control the pressure at 0.3 MPa, the temperature at 260° C. When esterified water distillate amount reaches 92% of the theoretical value of the esterification, reaction ends.

Polycondensation Reaction:

Including polycondensation reaction of low vacuum phase and polycondensation reaction high vacuum phase:

In the polycondensation reaction low-vacuum stage, add catalyst and the stabilizer trimethyl phosphate into the esterification product. The trimethyl phosphate dosage is 0.02% of terephthalic acid by weight, and the amount of catalyst is 0.02% of terephthalic acid by mass. The polycondensation reaction is started under the condition of negative pressure, the pressure is steadily pumped from the atmospheric pressure to the absolute pressure of 495 Pa, the temperature is controlled at 265° C., and the reaction time is 40 minutes. The catalyst is a mixture of magnesium ethylene glycol and antimony ethylene glycol, in which magnesium glycol and antimony ethylene glycol mass ratio is 3:1;

After the polycondensation reaction in the low-vacuum stage, the vacuum is continued to reduce the reaction pressure to 98 Pa, the reaction temperature is controlled at 278° C., and the reaction time is 80 minutes. The polyester sections are obtained by granulation.

3. Solvent Cleaning

Polyester sections are washed with water and rinsing agent ethylene glycol monopropyl ether at 125° C. and 0.25 MPa for 4 hours. After washing, the polyester sections are washed with hot water at 78° C. for 12 minutes and then washed with cold water. After drying and cooling, the mass ratio of water to the rinsing agent is 100:4, the ratio of the polyester slice to the water and the rinsing agent, that is, the solid to liquid ratio is 1:9;

4. Solid-Phase Polycondensation:

The obtained polyester sections are solidified by polycondensation to increase the intrinsic viscosity of the polyester sections to 1.1 dL/g, that is, high-viscosity sections.

5. The Main Process Parameters in Spinning:

The temperature of extrusion is 300° C.,

The air temperature of cooling is 25° C.,

The process of stretching, heat setting:

GR-1 speed 500 m/min, temperature is room temperature,

GR-2 speed 580 m/min, temp: 90° C.,

GR-3 speed 2000 m/min, temp: 120° C.,

GR-4 speed 3000 m/min, temp: 220° C.,

GR-5 speed 3000 m/min, temp: 220° C.,

GR-6 speed 2700 m/min temp: 220° C.,

The winding speed is 2700 m/min.

The ultra-low shrinkage polyester industrial yarn obtained under the conditions of a temperature of 177° C.×10 min×0.05 cN/dtex has the dry heat shrinkage rate of 1.55%. Additionally, the linear density deviation rate of 1.5%, breaking strength of 8.2 cN/dtex, CV value of breaking strength is 2.2%, breaking extension is 18.5% and CV value of breaking extension is 6.2%.

Example 3

An ultra-low shrinkage polyester industrial yarn preparation method, the main process is:

1. Preparation of Catalyst Magnesium Glycol:

Add ethylene glycol into the single-compartment electrolytic cell, magnesium chloride is electrolyte, the anode is magnesium, the cathode is graphite. Under DC, the initial voltage is 8V, the cathode current density is 160 mA, and electrolysis is carried out for 11 hours at 56° C. Remove the electrode after the electrolysis, we can get white suspension. Filter it under reduced pressure, wash the white solid with anhydrous ethanol, and we get magnesium ethylene glycol.

2. Preparation of Polyester, Including Esterification and Polycondensation:

Esterification Reaction:

Using terephthalic acid and ethylene glycol as raw materials, ethylene glycol and terephthalic acid molar ratio of 1.8:1, adding plyether-inhibitor sodium acetate, sodium acetate dosage of terephthalic acid in an amount of 0.03% by weight. Start esterification reaction under nitrogen atmosphere pressure, and control the pressure at 0.2 MPa, the temperature at 255° C. When esterified water distillate amount reaches 95% of the theoretical value of the esterification, reaction ends.

Polycondensation Reaction:

Including polycondensation reaction of low vacuum phase and polycondensation reaction high vacuum phase:

In the polycondensation reaction low-vacuum stage, add catalyst and the stabilizer trimethyl phosphite into the esterification product. The trimethyl phosphite dosage is 0.03% of terephthalic acid by weight, and the amount of catalyst is 0.04% of terephthalic acid by mass. The polycondensation reaction is started under the condition of negative pressure, the pressure is steadily pumped from the atmospheric pressure to the absolute pressure of 495 Pa, the temperature is controlled at 266° C., and the reaction time is 38 minutes. The catalyst is a mixture of magnesium ethylene glycol and antimony ethylene glycol, in which magnesium glycol and antimony ethylene glycol mass ratio is 3:1;

After the polycondensation reaction in the low-vacuum stage, the vacuum is continued to reduce the reaction pressure to 99 Pa, the reaction temperature is controlled at 277° C., and the reaction time is 70 minutes. The polyester sections are obtained by granulation.

3. Solvent Cleaning

Polyester sections are washed with water and rinsing agent ethylene glycol monobutyl ether at 128° C. and 0.25 MPa for 3 hours. After washing, the polyester sections are washed with hot water at 75° C. for 12 minutes and then washed with cold water. After drying and cooling, the mass ratio of water to the rinsing agent is 100:4, the ratio of the polyester slice to the water and the rinsing agent, that is, the solid to liquid ratio is 1:8;

4. Solid-Phase Polycondensation:

The obtained polyester sections are solidified by polycondensation to increase the intrinsic viscosity of the polyester sections to 1.2 dL/g, that is, high-viscosity sections.

5. The Main Process Parameters in Spinning:

The temperature of extrusion is 290° C.,

The air temperature of cooling is 20° C.,

The process of stretching, heat setting:

GR-1 speed 450 m/min, temp: room temperature,

GR-2 speed 480 m/min, temp: 80° C.,

GR-3 speed 1800 m/min, temp: 100° C.,

GR-4 speed 2800 m/min, temp: 200° C.,

GR-5 speed 2800 m/min, temp: 200° C.,

GR-6 speed 2600 m/min, temp: 200° C.,

The winding speed is 2600 m/min.

The ultra-low shrinkage polyester industrial yarn obtained under the conditions of a temperature of 177° C.×10 min×0.05 cN/dtex has the dry heat shrinkage rate of 1.8%. Additionally, the linear density deviation rate is 1.2%, breaking strength is 8.5 cN/dtex, CV value of breaking strength is 1.8%, breaking extension is 20.1% and CV value of breaking extension is 6.8%.

Example 4

An ultra-low shrinkage polyester industrial yarn preparation method, the main process is:

1. Preparation of Catalyst Magnesium Glycol:

Add ethylene glycol into the single-compartment electrolytic cell, magnesium chloride is electrolyte, the anode is magnesium, the cathode is graphite. Under DC, the initial voltage is 10V, the cathode current density is 150 mA, and electrolysis is carried out for 12 hours at 50° C. Remove the electrode after the electrolysis, we can get white suspension. Filter it under reduced pressure, wash the white solid with anhydrous ethanol, and we get magnesium ethylene glycol.

2. Preparation of Polyester, Including Esterification and Polycondensation:

Esterification Reaction:

Using terephthalic acid and ethylene glycol as raw materials, ethylene glycol and terephthalic acid molar ratio of 1.2:1, adding plyether-inhibitor sodium acetate, sodium acetate dosage of terephthalic acid in an amount of 0.04% by weight. Start esterification reaction under nitrogen atmosphere pressure, and control the pressure at 0.2 MPa, the temperature at 258° C. When esterified water distillate amount reaches 96% of the theoretical value of the esterification, reaction ends.

Polycondensation Reaction:

Including polycondensation reaction of low vacuum phase and polycondensation reaction high vacuum phase:

In the polycondensation reaction low-vacuum stage, add catalyst and the stabilizer acid triphenyl ester into the esterification product. The acid triphenyl ester dosage is 0.03% of terephthalic acid by weight, and the amount of catalyst is 0.04% of terephthalic acid by mass. The polycondensation reaction is started under the condition of negative pressure, the pressure is steadily pumped from the atmospheric pressure to the absolute pressure of 495 Pa, the temperature is controlled at 265° C., and the reaction time is 30 minutes. The catalyst is a mixture of magnesium ethylene glycol and antimony ethylene glycol, in which magnesium glycol and antimony ethylene glycol mass ratio is 3:1;

After the polycondensation reaction in the low-vacuum stage, the vacuum is continued to reduce the reaction pressure to 98 Pa, the reaction temperature is controlled at 277° C., and the reaction time is 70 minutes. The polyester sections are obtained by granulation.

3. Solvent Cleaning

Polyester sections are washed with water and rinsing agent ethylene glycol monoethyl ether at 120° C. and 0.3 MPa for 5 hours. After washing, the polyester sections are washed with hot water at 72° C. for 12 minutes and then washed with cold water. After drying and cooling, the mass ratio of water to the rinsing agent is 100:4, the ratio of the polyester slice to the water and the rinsing agent, that is, the solid to liquid ratio is 1:8;

4. Solid-Phase Polycondensation:

The obtained polyester sections are solidified by polycondensation to increase the intrinsic viscosity of the polyester sections to 1.2 dL/g, that is, high-viscosity sections.

5. The Main Process Parameters in Spinning:

The temperature of extrusion of 320° C.,

The air temperature of cooling is 30° C.,

The process of stretching, heat setting:

GR-1 speed 600 m/min, temp: room temperature,

GR-2 speed 1000 m/min. temp: 100° C.,

GR-3 speed 2500 m/min, temp: 150° C.,

GR-4 speed 3500 m/min, temp: 210° C.,

GR-5 speed 3500 m/min, temp: 210° C.,

GR-6 speed 3400 m/min, temp: 210° C.,

The winding speed is 3400 m/min.

The ultra-low shrinkage polyester industrial yarn obtained under the conditions of a temperature of 177° C.×10 min×0.05 cN/dtex has the div heat shrinkage rate of 1.82%. Additionally, the linear density deviation rate is 0.9%, breaking strength is 8.6 cN/dtex, CV value of breaking strength is 2.1%, breaking extension is 19.5% and CV value of breaking extension is 6.4%. 

What is claimed is:
 1. An ultra-low shrinkage industrial yarn having a dry heat shrinkage rate of 1.8±0.25%, under the testing condition of 177° C.×10 min×0.05 cN/dtex wherein the ultra-low shrinkage industrial yarn is obtained by the following process: subjecting the polyester to dissolution, washing and solid state tackifying followed by spinning, esterification of terephthalic acid and ethylene glycol and the polycondensation catalysed by a mixture of magnesium ethylene glycol and antimony ethylene glycol followed by granulation, wherein the carboxyl end group is less than 15 mol/t, the mass percentage of oligomer is lower than 0.5%, and weight percentage of diethylene glycol is lower than 0.5%; wherein the molecular formula of magnesium ethylene glycol is Mg(OCH₂CH₂OH₂)₂; wherein the dissolution and washing refers to that the granulated slices are scoured and washed with water and a rinsing agent at 120-130° C. and 0.2-0.3 MPa.
 2. The ultra-low shrinkage industrial yarn according to claim 1, wherein the density deviation is ≤1.5%, a breaking strength is ≥7.0 cN/dtex, the CV value of the breaking strength ≤2.5%, a breaking extension 20.0±1.5%, and the CV value of the breaking extension ≤7.0%.
 3. The ultra-low shrinkage industrial yarn according to claim 1, wherein the mass ratio of magnesium ethylene glycol to antimony ethylene glycol in the mixture is 2-3:1.
 4. A process for preparing an ultra-low shrinkage industrial yarn of claim 1, the process comprising: obtaining polyester by the esterification of tereplithalic acid and ethylene glycol and the polycondensation catalyzed by a mixture of magnesium ethylene glycol and antimony ethylene glycol, obtaining a polyester section by granulating; then the polyester section is ready for dissolution, washing and solid state polycondensation; finally, after measuring, extrusion, cooling, oiling, stretching, heat setting and winding, the ultra-low shrinkage polyester industrial yarn is prepared.
 5. The process for preparing the ultra-low shrinkage industrial yarn according to claim 4, wherein the preparation method of the ultra-low shrinkage polyester industrial yarn includes: preparation of catalyst (magnesium ethylene glycol) adding ethylene glycol in the single-compartment electrolytic cell, magnesium chloride is the supporting electrolyte, the anode is comprised of magnesium, the cathode is graphite; at 50 to 60° C., the apparatus is operated about 10 to 12 h under DC, for the initial voltage 6 to 10V, cathodic current density 150 to 200 mA; after the electrolysis, the white suspension liquid is obtained followed by removing the electrodes, decompression filtration and washing by anhydrous alcohol, then obtaining the magnesium ethylene glycol after drying preparation of polyester, including the esterification and polycondensation using, by the esterification reaction, terephthalic acid and ethylene glycol as raw materials, adding polyether-inhibitor in to obtain esterification products after reaction; the esterification reaction needs the increase of pressure in the nitrogen atmosphere, and the pressure is controlled in the scale of atmospheric pressure to 0.3 MPa, the temperature is controlled between 250 to 260° C.; the end of the reaction is set after the amount of distillate water in the esterification reaction reaches 90% of the theoretical value at least; the condensation reaction, includes the low vacuum stage and the high vacuum stage of the condensation reaction: in the low vacuum stage of such condensation reaction, the catalyst and stabilizer need to be added into the esterification production; the condensation reaction will start under the condition of negative pressure; In such period, the pressure needs to be pumped smoothly from atmospheric pressure to the pressure lower than the absolute pressure 500 Pa, and the temperature needs to be controlled between 260 to 270° C.; the reaction time should be 30 to 50 mins; the catalyst the reaction used is the mixture of magnesium ethylene glycol and antimony ethylene glycol; the high vacuum stage of the condensation reaction requires continuously pumping vacuum after the low vacuum period in order to ensure that the reaction pressure is decreased to absolute pressure lower than 100 Pa; the reaction temperature needs to be controlled between 275 and 280° C., and the reaction time needs to be 50-90 mins; then the polyester is prepared and the polyester section can be made through granulation; dissolution and washing the polyester section is scoured and washed with water and rinsing agent at 120 to 130° C. and 0.2 to 0.3 MPa for 3 to 5 h followed by washing with water; solid state polycondensation the intrinsic viscosity of the polyester section is raised to 1.0 to 1.2 dL/g through the solid state polycondensation, which can be regarded as high-viscosity chips; main process parameters of spinning the temperature of extrusion is 290 to 320° C.; the air temperature of cooling is 20 to 30° C.; the process of stretching and heat setting, GR-1 at speed of 450 to 600 m/min, temp: room temperature; GR-2 at speed of 480 to 1000 m/min, temp: 80 to 100° C.; GR-3 at speed of 1800 to 2500 m/min, temp: 100 to 150° C.; GR-4 at speed of 2800 to 3500 m/min, temp: 200 to 250° C.; GR-5 at speed of 2800 to 3500 m/min, temp: 200 to 250° C.; GR-6 at speed of 2600 to 3400 m/min, temp: 150 to 220° C.; the winding speed is 2600 to 3400 m/min.
 6. The process for preparing the ultra-low shrinkage industrial yarn according to claim 4, wherein the molar ratio of the ethylene glycol to terephthalic acid is 1.2:1 to 2.0:1.
 7. The process for preparing the ultra-low shrinkage industrial yarn according to claim 5, wherein the mass ratio of magnesium ethylene glycol to antimony ethylene glycol in their mixture is 2 to 3:1; the mass of the catalyst is 0.01-0.05% of the terephthalic acid; the stabilizer is chosen from triphenyl phosphate, trimethyl phosphate and trimethyl phosphite; the mass of stabilizer is 0.01-0.05% of the terephthalic acid.
 8. The process for preparing the ultra-low shrinkage industrial yarn according to claim 5, wherein the mass ratio of water to the rinsing agent is 100:4 to 100:3, and the ratio of polyester section to water and rinsing agent is 1:5-10, the rinsing agent is selected from one of 2-ethoxyethanol, 2-propoxyethanol and ethylene glycol monobutyl ether.
 9. The process for preparing the ultra-low shrinkage industrial yarn according to claim 5, wherein the cleaning means washing the polyester sections with 70-80° C. water for 10-15 min after scouring the polyester sections, then washing them with cold water, and dry and cool down to make the sections prepared.
 10. The process for preparing the ultra-low shrinkage industrial yarn according to claim 5, wherein the polyether inhibitor is chosen from the sodium acetate and calcium acetate, the mass of plyether-inhibitor is 0.01-0.05% of tereplithalic acid.
 11. The process for preparing the ultra-low shrinkage industrial yarn according to claim 5, wherein the molar ratio of the ethylene glycol to terephthalic acid is 1.2:1 to 2.0:1. 